3.3V 15kV ES S-485/S-422 TI/EI S-485/S-422 S-485 15kV ES M37E/M371E/M372E 25kbps M373E/M374E/M375E 5kbps M376E/M377E/M378E 16Mbps 256 4 125 E EMI M371E/M374E/ M377E 7 12V 8 14SOIC M37E M378E 3.3V 15kV ES TI/EI S-485 S- 422 E M37E/ M373E/ M376E 1 M371E/ M374E/ M377E GN GN 2 M372E/ M375E/ M378E 6285-1 6285-2 1/8 256 1 E GN 3 6285-3 3 V. VISION 26 nalog evices, Inc. ll rights reserved. 15-6891 1-16-1 3 542 82 532-3 3-5-36 MT 2 6 635 6868
1/6 ev. to ev. 8/6 evision : Initial Version
1 EMI 25kbps 5kbps 8 14SOIC 1. Half/Full ata ate Slew ate river/eceiver Low Power Nodes on ±15 kv ES Pin Part No. uplex (Mbps) Limited Enable Shutdown us on us Pins Count M37E Full.25 es es es 256 es 14 M371E Full.25 es No No 256 es 8 M372E Half.25 es es es 256 es 8 M373E Full.5 es es es 256 es 14 M374E Full.5 es No No 256 es 8 M375E Half.5 es es es 256 es 8 M376E Full 16 No es es 256 es 14 M377E Full 16 No No No 256 es 8 M378E Half 16 No es es 256 es 8
3.3V 1 T T MIN T MX 2. Parameter Symbol Min Typ Max Unit Test Conditions/Comments IVE ifferential Outputs ifferential Output Voltage V O 2. V L = 1 Ω (S-422) (see Figure 7) 1.5 V L = 54 Ω (S-485) (see Figure 7) V No load V O for Complementary Output States 1 V O.2 V = 54 Ω or 1 Ω (see Figure 7) Common-Mode Output Voltage V OC /2 3 V = 54 Ω or 1 Ω (see Figure 7) V OC for Complementary Output States 1 V OC.2 V = 54 Ω or 1 Ω (see Figure 7) Short-Circuit Output Current I OS 4 25 m V < V OUT < 12 V 25 4 m 7 V < V OUT < Short-Circuit Foldback Output Current I OSF 2 m ( 1 V) < V OUT < 12 V 2 m 7 V < V OUT < +1 V Output Leakage (, ) Full uplex I O 125 µ E = V, = V, = V or 3.6 V, V IN = 12 V 1 µ E = V, = V, = V or 3.6 V, V IN = 7 V Logic Inputs Input High Voltage V IH 2. V E,, Input Low Voltage V IL.8 V E,, Input Hysteresis V HS 1 mv E,, Logic Input Current I IN1 ±1 µ E,, Input Impedance First Transition 1 1 kω E Thermal Shutdown Threshold T TS 175 C Thermal Shutdown Hysteresis T TSH 15 C CEIVE ifferential Inputs ifferential Input Threshold Voltage V TH 2 125 5 mv 7 V < V CM < +12 V Input Hysteresis V TH 15 mv V + V = V Input esistance (, ) IN 96 kω 7 V < V CM < +12 V Input Current (, ) I, 125 µ E = V, = V or 3.6 V, V IN = 12 V 1 µ E = V, = V or 3.6 V, V IN = 7 V Logic Output Output High Voltage V OH.6 V I OUT = 1 m Output Low Voltage V OL.4 V I OUT = 1 m Short-Circuit Output Current I OS ±8 m V < V < Tristate Output Leakage Current I O ±1 µ = 3.6 V, V < V OUT < POWE SUPPL Supply Current I CC.8 1.5 m No load, E =, = V.8 1.5 m No load, E =, =.8 1.5 m No load, E = V, = V Shutdown Current I SHN.5 1 µ E = V, = ES PTECTION,,, Pins ±15 kv Human body model ll Pins Except,,, Pins ±4 kv Human body model 1 V O V OC V O V OC
M37E/M371E/M372E 3.3V 1 T T MIN T MX 3 Parameter Symbol Min Typ Max Unit Test Conditions/Comments IVE Maximum ata ate 25 kbps Propagation elay, Low to High Level t PLH 25 15 ns C L = 5 pf, L = 54 Ω Propagation elay, High to Low Level t PHL 25 15 ns C L = 5 pf, L = 54 Ω ise Time/Fall Time t /t F 35 16 ns C L = 5 pf, L = 54 Ω t PLH t PHL ifferential river Output Skew t SKEW 2 ns C L = 5 pf, L = 54 Ω Enable to Output High t H 25 ns (See Figure 1) Enable to Output Low t L 25 ns (See Figure 11) isable Time from Low t L 1 ns (See Figure 11) isable Time from High t H 1 ns (See Figure 1) Enable Time from Shutdown to High t H(SHN) 55 ns (See Figure 1) Enable Time from Shutdown to Low t L(SHN) 55 ns (See Figure 11) CEIVE Maximum ata ate 25 kbps Propagation elay, Low to High Level t PLH 2 ns C L = 15 pf (see Figure 12 and Figure 13) Propagation elay, High to Low Level t PHL 2 ns C L = 15 pf (see Figure 12 and Figure 13) t PLH t PHL Output Skew t SKEW 3 ns C L = 15 pf (see Figure 12 and Figure 13) Enable to Output High t H 5 ns (See Figure 14) Enable to Output Low t L 5 ns (See Figure 14) isable Time from Low t L 5 ns (See Figure 14) isable Time from High t H 5 ns (See Figure 14) Enable Time from Shutdown to High t H(SHN) 4 ns (See Figure 14) Enable Time from Shutdown to Low t L(SHN) 4 ns (See Figure 14) TIME TO SHUTOWN t SHN 5 2 6 ns
M373E/M374E/M375E 3.3V 1 T T MIN T MX 4 Parameter Symbol Min Typ Max Unit Test Conditions/Comments IVE Maximum ata ate 5 kbps Propagation elay, Low to High Level t PLH 18 8 ns C L = 5 pf, L = 54 Ω Propagation elay, High to Low Level t PHL 18 8 ns C L = 5 pf, L = 54 Ω ise Time/Fall Time t /t F 2 8 ns C L = 5 pf, L = 54 Ω t PLH t PHL ifferential river Output Skew t SKEW 1 ns C L = 5 pf, L = 54 Ω Enable to Output High t H 25 ns (See Figure 1) Enable to Output Low t L 25 ns (See Figure 11) isable Time from Low t L 1 ns (See Figure 11) isable Time from High t H 1 ns (See Figure 1) Enable Time from Shutdown to High t H(SHN) 45 ns (See Figure 1) Enable Time from Shutdown to Low t L(SHN) 45 ns (See Figure 11) CEIVE Maximum ata ate 5 kbps Propagation elay, Low to High Level t PLH 2 ns C L = 15 pf (see Figure 12 and Figure 13) Propagation elay, High to Low Level t PHL 2 ns C L = 15 pf (see Figure 12 and Figure 13) t PLH t PHL Output Skew t SKEW 3 ns C L = 15 pf (see Figure 12 and Figure 13) Enable to Output High t H 5 ns (See Figure 14) Enable to Output Low t L 5 ns (See Figure 14) isable Time from Low t L 5 ns (See Figure 14) isable Time from High t H 5 ns (See Figure 14) Enable Time from Shutdown to High t H(SHN) 4 ns (See Figure 14) Enable Time from Shutdown to Low t L(SHN) 4 ns (See Figure 14) TIME TO SHUTOWN t SHN 5 2 6 ns
M376E/M377E/M378E 3.3V 1 T T MIN T MX 5 Parameter Symbol Min Typ Max Unit Test Conditions/Comments IVE Maximum ata ate 16 Mbps Propagation elay, Low to High Level t PLH 5 ns C L = 5 pf, L = 54 Ω Propagation elay, High to Low Level t PHL 5 ns C L = 5 pf, L = 54 Ω ise Time/Fall Time t /t F 15 ns C L = 5 pf, L = 54 Ω t PLH t PHL ifferential river Output Skew t SKEW 8 ns C L = 5 pf, L = 54 Ω Enable to Output High t H 15 ns (See Figure 1) Enable to Output Low t L 15 ns (See Figure 11) isable Time from Low t L 1 ns (See Figure 11) isable Time from High t H 1 ns (See Figure 1) Enable Time from Shutdown to High t H(SHN) 125 18 ns (See Figure 1) Enable Time from Shutdown to Low t L(SHN) 125 18 ns (See Figure 11) CEIVE Maximum ata ate 16 Mbps Propagation elay, Low to High Level t PLH 4 75 ns C L = 15 pf 4 (see Figure 12 and Figure 13) Propagation elay, High to Low Level t PHL 75 ns C L = 15 pf (see Figure 12 and Figure 13) t PLH t PHL Output Skew t SKEW 8 ns C L = 15 pf (see Figure 12 and Figure 13) Enable to Output High t H 5 ns (See Figure 14) Enable to Output Low t L 5 ns (See Figure 14) isable Time from Low t L 5 ns (See Figure 14) isable Time from High t H 5 ns (See Figure 14) Enable Time from Shutdown to High t H(SHN) 18 ns (See Figure 14) Enable Time from Shutdown to Low t L(SHN) 18 ns (See Figure 14) TIME TO SHUTOWN t SHN 5 2 6 ns
T 25 6 Parameter ating to GN.3 V to +6 V igital Input/Output Voltage (E,, ).3 V to +6 V eceiver Output Voltage ().3 V to ( +.3 V) river Output (,,, )/eceiver Input (, ) Voltage 8 V to +13 V river Output Current ±25 m Operating Temperature ange M37xE_ 4 C to +85 C M37xE_ 4 C to +125 C Storage Temperature ange 65 C to +15 C θ J Thermal Impedance 8-Lead SOIC_N 158 C/W 14-Lead SOIC_N 12 C/W Lead Temperature, Soldering (2 sec) 26 C ES ES ES ES
4. NC 1 2 3 M37E/ M373E/ M376E 14 13 NC 12 E 4 11 5 TOP VIEW 1 (Not to Scale) GN 6 9 GN 7 8 NC NC = NO CONNECT M37E/M373E/ M376E 6285-4 5. 1 2 3 GN 4 M371E/ M374E/ M377E TOP VIEW (Not to Scale) M371E/M374E/ M377E 8 7 6 5 6285-5 1 2 E 3 6. 4 M372E/ M375E/ M378E TOP VIEW (Not to Scale) M372E/M375E/ M378E 8 7 6 5 GN 6285-6 7. M37E/ M371E/ M372E/ M373E/ M374E/ M375E/ M376E M377E M378E 2 2 1 5mV 2mV 3 N/ 2 E 4 N/ 3 E E 5 3 4 6, 7 4 5 GN 9 5 N/ N/ N/ 6 12 8 N/ 1 6 N/ N/ N/ 7 11 7 N/ 14 1 8 3.3V 1.1µF GN 1, 8, 13 N/ N/ NC GN
V O L /2 L /2 V OC 6285-7 V O 3V S1 + C L 5pF L 5Ω OUT 7. C GENETO 5Ω 3V E V O L C L 8. /2 V t PLH t PHL 1/2V O 6285-8 E OUT 11. V OL t L, t L(SHN) V OM = (V OL + )/2 t L /2.25V t L t L t L(SHN) V 6285-11 V O 1/2V O +V O V FF V V O 1% V FF = V () V () 9% 9% t t F t SKEW = t PLH t PHL 1% 6285-9 TE 12. V I CEIVE OUTPUT 6285-12 9. +1V V O 3V S1 + C L 5pF L 5Ω OUT t PLH 1V t PHL GENETO 5Ω V OH 1.5V V OL NOTES 1. THE ISE TIME N FLL TIME OF INPUT N INPUT < 4ns. 6285-13 13. E t H, t H(SHN) /2 V.25V V OH OUT 1. V OM = ( + V OH )/2 t H t H t H t H(SHN) V 6285-1
+1.5V S3 S1 1.5V V I + C L 15pF 1kΩ S2 GENETO 5Ω S1 OPEN S2 CLOSE S3 = +1.5V 3V S1 CLOSE S2 OPEN S3 = 1.5V 3V 1.5V V V t L, t L(SHN) t H, t H(SHN) V OH V OH /2 (V OL + )/2 V V OL S1 OPEN S2 CLOSE S3 = +1.5V 3V S1 CLOSE S2 OPEN S3 = 1.5V 3V 1.5V 1.5V V V t H t L V OH.25V V.25V V OL 6285-14 14.
1.2 1.1 3.3 3.25 I = 1m (m) SUPPL CUNT 1..9.8.7 (V) HIGH VOLTGE OUTPUT 3.2 3.15 3.1.6 3.5.5 4 1 2 5 8 TEMPETU ( C) 11 6285-2 3. 5 25 25 5 75 1 125 TEMPETU ( C) 6285-23 15. 18. 18.7 I = 1m 16.6 (m) CUNT OUTPUT 14 12 1 8 6 4 (V) LOW VOLTGE OUTPUT.5.4.3.2 2.1.5 1. 1.5 2. 2.5 3. 3.5 OUTPUT HIGH VOLTGE (V) 6285-21 5 25 25 5 75 1 125 TEMPETU ( C) 6285-24 16. 19. 25 1 9 2 8 (m) (m) 7 CUNT 15 CUNT 6 5 OUTPUT 1 OUTPUT 4 3 5 2 1.5 1. 1.5 2. 2.5 3. 3.5 OUTPUT LOW VOLTGE (V) 6285-22.5 1. 1.5 2. 2.5 3. 3.5 FFENTIL OUTPUT VOLTGE (V) 6285-25 17. 2.
FFENTIL OUTPUT VOLTGE (V) 2.6 2.5 2.4 2.3 2.2 2.1 2. 1.9 1.8 1.7 L = 54Ω (µ) SHUTOWN CUNT.9.8.7.6.5.4.3.2.1 1.6 5 25 25 5 75 1 125 TEMPETU ( C) 6285-26 5 25 25 5 75 1 125 TEMPETU ( C) 6285-29 21. 24. 12 12 1 1 (m) CUNT OUTPUT 8 6 4 PPGTION EL (ns) 8 6 4 t PHL t PLH 2 2 7 6 5 4 3 2 1 1 2 3 4 OUTPUT HIGH VOLTGE (V) 6285-27 4 25 125 TEMPETU ( C) 6285-3 22. 25. M37E/M371E/M372E 25kbps 12 7 1 6 OUTPUT CUNT (m) 8 6 4 PPGTION EL (ns) 5 4 3 2 t PHL t PLH 2 1 2 4 6 8 1 12 OUTPUT LOW VOLTGE (V) 6285-28 4 25 TEMPETU ( C) 125 6285-31 23. 26. M373E/M374E/M375E 5kbps
35 PPGTION EL (ns) 3 25 2 15 1 t PLH t PHL 3 M1 V V 5 5 25 25 5 75 1 125 TEMPETU ( C) 6285-32 CH3 2.V MTH1 2.1V M4s 125MS/s 8ns/pt CH2 1.24V 4ns 6285-36 27. M376E/M377E/M378E 16Mbps 3. M373E/M374E/M375E 5kbps 7 6 t PLH PPGTION EL (ns) 5 4 3 2 t PHL M1 V V 1 5 25 25 5 75 1 125 TEMPETU ( C) 6285-33 3 CH3 2.V Ω MTH1 1.V M2ns 1.25GS/s IT 4ps/pt CH3 1.64V 2ns 6285-37 28. 31. M376E/M377E/M378E 16Mbps 3 V V M1 M1 V V 6285-34 3 6285-35 CH3 2.V MTH1 2.1V M1.µs 5MS/s 2ns/pt CH2 1.24V 1.µs CH3 2.V Ω MTH1 2.1V M2ns 25MS/s 4ns/pt CH2 1.24V 2ns 29. M37E/M371E/M372E 25kbps 32.
M37xES-485 S-422 1 1 M37xE M37E/M371E/M372E EMI 25kbps M373E/M374E/M375E 5kbps M376E/M377E/M378E 16Mbps M372E/M375E/M378E M37E/M371E/M373E/M374E/ M376E/M377E 3.3V M37E/M373E/M376E 8. Transmitting Inputs Transmitting Outputs E X 1 1 1 1 X 1 1 1 X 1 High- 2 High- 2 1 X 1 Shutdown Shutdown 1 X 2 High- 9. eceiving Inputs eceiving Outputs E X 1 5 mv 1 X 1 2 mv X 1 Open/shorted 1 1 1 X 1 High- 2 1 X 1 Shutdown 1 X 2 High- M371E/M374E/M377E 1. Transmitting Input Transmitting Outputs 1 1 1 11. eceiving Input 5 mv 1 2 mv Open/shorted 1 M372E/M375E/M378E 12. eceiving Output Transmitting Inputs Transmitting Outputs E,, X 1 1 1 1 X 1 1 1 X 1 High- 2 High- 2 1 X 1 Shutdown Shutdown 1 X 2 High- 13. eceiving Inputs eceiving Outputs E 5 mv 1 2 mv Open/shorted 1 1 1 X 1 High- 2 1 X 1 Shutdown 1 X 2 High- M37xE 5 2mV 5mV 2mV V M37xE 5mV
M371E/M374E/M377E S-485 E 1µ CMOS GN E S-485/S-422 4 4 37 15kV ES ES2 ES I/O ES I/O I/O I/O ES ES I/O ES I/O M37xE 15kV 33 ES 1pF 1.5kΩ 1% 9% I PE K 36.8% 1% HIGH VOLTGE GENETO t L 33. 1 ES TEST METHO HUMN O MOEL ES SSOC. ST 55.1 t L TIME t 256 S-485 12kΩ 1 32 M37xE 1/8 96kΩ 1 256 S-485 32 EMI M37E/M371E/M372E EMI 25kbps M373E/M374E/M375E 5kbps C1 2 2 1.5kΩ C1 1pF EVICE UNE TEST 6285-1 5
M371E/M374E/M377E E 1µ E E5ns 6ns t H t L t H(SHN) t L(SHN) t H(SHN) t L(SHN) t H t L M37xE 2 1 12 13 1 M372E/M375E/M378E 34 M371E/M374E/M377E 35 M37E/M373E/M376E S-485 36 M372E/ M375E/ M378E M372E/ M375E/ M378E E T T E M372E/ M375E/ M378E M372E/ M375E/ M378E E E NOTES 1. MXIMUM NUME OF NOES: 256. 2. T IS EQUL TO THE CHCTEISTIC IMPENCE OF THE CLE USE. 34. M372E/M375E/M378E S-485 6285-16 MSTE M371E/ M374E/ M377E SLVE M371E/ M374E/ M377E 35. M371E/M374E/M377E 6285-17
MSTE M37E/ M373E/ M376E M37E/ M373E/ M376E SLVE E T E T SLVE SLVE M37E/ M373E/ M376E M37E/ M373E/ M376E NOTES 1. MXIMUM NUME OF NOES: 32. 2. T IS EQUL TO THE CHCTEISTIC IMPENCE OF THE CLE USE. 36. E M37E/M373E/M376ES-485 E 6285-19 M37E/ M373E/ M376E T T IN E T T OUT 37. NOTES 1. T IS EQUL TO THE CHCTEISTIC IMPENCE OF THE CLE USE. M37E/M373E/M376E 6285-18
5. (.1968) 4.8 (.189) 4. (.1574) 3.8 (.1497) 8 5 1 4 6.2 (.244) 5.8 (.2284).25 (.98).1 (.4) COPLNIT.1 SETING PLNE 1.27 (.5) SC 1.75 (.688) 1.35 (.532).51 (.21).31 (.122) 8.25 (.98).17 (.67).5 (.196).25 (.99) 1.27 (.5).4 (.157) 45 COMPLINT TO JEEC STNS MS-12- CONTLLING MENSIONS IN MILLIMETES; INCH MENSIONS (IN PNTHESES) UNE-OFF MILLIMETE EQUIVLENTS FO FENCE ONL N NOT PPPITE FO USE IN ESIGN. 38. 8SOIC_N -8 mm 8.75 (.3445) 8.55 (.3366) 656-4. (.1575) 3.8 (.1496) 14 8 1 7 6.2 (.2441) 5.8 (.2283).25 (.98).1 (.39) COPLNIT.1 1.27 (.5) SC.51 (.21).31 (.122) 1.75 (.689) 1.35 (.531) SETING PLNE 8.25 (.98).17 (.67).5 (.197).25 (.98) 1.27 (.5).4 (.157) 45 39. COMPLINT TO JEEC STNS MS-12- CONTLLING MENSIONS IN MILLIMETES; INCH MENSIONS (IN PNTHESES) UNE-OFF MILLIMETE EQUIVLENTS FO FENCE ONL N NOT PPPITE FO USE IN ESIGN. 14SOIC_N -14 mm 666-
Temperature Package Ordering Model ange Package escription Option Quantity M37E 1 4 C to +85 C 14-Lead Standard Small Outline Package (SOIC_N) -14 M37E-EL7 1 4 C to +85 C 14-Lead Standard Small Outline Package (SOIC_N) -14 1, M37E 1 4 C to +125 C 14-Lead Standard Small Outline Package (SOIC_N) -14 M37E-EL7 1 4 C to +125 C 14-Lead Standard Small Outline Package (SOIC_N) -14 1, M371E 1 4 C to +85 C 8-Lead Standard Small Outline Package (SOIC_N) -8 M371E-EL7 1 4 C to +85 C 8-Lead Standard Small Outline Package (SOIC_N) -8 1, M371E 1 4 C to +125 C 8-Lead Standard Small Outline Package (SOIC_N) -8 M371E-EL7 1 4 C to +125 C 8-Lead Standard Small Outline Package (SOIC_N) -8 1, M372E 1 4 C to +85 C 8-Lead Standard Small Outline Package (SOIC_N) -8 M372E-EL7 1 4 C to +85 C 8-Lead Standard Small Outline Package (SOIC_N) -8 1, M372E 1 4 C to +125 C 8-Lead Standard Small Outline Package (SOIC_N) -8 M372E-EL7 1 4 C to +125 C 8-Lead Standard Small Outline Package (SOIC_N) -8 1, M373E 1 4 C to +85 C 14-Lead Standard Small Outline Package (SOIC_N) -14 M373E-EL7 1 4 C to +85 C 14-Lead Standard Small Outline Package (SOIC_N) -14 1, M373E 1 4 C to +125 C 14-Lead Standard Small Outline Package (SOIC_N) -14 M373E-EL7 1 4 C to +125 C 14-Lead Standard Small Outline Package (SOIC_N) -14 1, M374E 1 4 C to +85 C 8-Lead Standard Small Outline Package (SOIC_N) -8 M374E-EL7 1 4 C to +85 C 8-Lead Standard Small Outline Package (SOIC_N) -8 1, M374E 1 4 C to +125 C 8-Lead Standard Small Outline Package (SOIC_N) -8 M374E-EL7 1 4 C to +125 C 8-Lead Standard Small Outline Package (SOIC_N) -8 1, M375E 1 4 C to +85 C 8-Lead Standard Small Outline Package (SOIC_N) -8 M375E-EL7 1 4 C to +85 C 8-Lead Standard Small Outline Package (SOIC_N) -8 1, M375E 1 4 C to +125 C 8-Lead Standard Small Outline Package (SOIC_N) -8 M375E-EL7 1 4 C to +125 C 8-Lead Standard Small Outline Package (SOIC_N) -8 1, M376E 1 4 C to +85 C 14-Lead Standard Small Outline Package (SOIC_N) -14 M376E-EL7 1 4 C to +85 C 14-Lead Standard Small Outline Package (SOIC_N) -14 1, M376E 1 4 C to +125 C 14-Lead Standard Small Outline Package (SOIC_N) -14 M376E-EL7 1 4 C to +125 C 14-Lead Standard Small Outline Package (SOIC_N) -14 1, M377E 1 4 C to +85 C 8-Lead Standard Small Outline Package (SOIC_N) -8 M377E-EL7 1 4 C to +85 C 8-Lead Standard Small Outline Package (SOIC_N) -8 1, M377E 1 4 C to +125 C 8-Lead Standard Small Outline Package (SOIC_N) -8 M377E-EL7 1 4 C to +125 C 8-Lead Standard Small Outline Package (SOIC_N) -8 1, M378E 1 4 C to +85 C 8-Lead Standard Small Outline Package (SOIC_N) -8 M378E-EL7 1 4 C to +85 C 8-Lead Standard Small Outline Package (SOIC_N) -8 1, M378E 1 4 C to +125 C 8-Lead Standard Small Outline Package (SOIC_N) -8 M378E-EL7 1 4 C to +125 C 8-Lead Standard Small Outline Package (SOIC_N) -8 1, 1 6285--1/6()-J